Effects of Various Plant Extracts on the Development of the Potato Beetle under Laboratory and Field Conditions: A Combined Study

ERTÜRK, Ömer; SARIKAYA, Adnan

Effects of Various Plant Extracts on the Development of the Potato Beetle under Laboratory and Field Conditions: A Combined Study

Ömer ERTÜRK, (Ordu University)

Adnan SARIKAYA (Amasya University)

Journal of the Entomological Research Society

7 0

Yıl: 2017 Cilt: 19 Sayı: 2 Sayfa Aralığı: 101 - 112 Metin Dili: İngilizce İndeks Tarihi: 29-07-2022

Effects of Various Plant Extracts on the Development of the Potato Beetle under Laboratory and Field Conditions: A Combined Study

Öz:

In this study, we examined the effects of ethanolic extracts obtained from the various parts of Liquidambar orientalis, Buxus sempervirens, Alnus glutinosa, Artemisia absinthium, Aesculus hippocastanum and Rhus coriaria on the egg-laying behavior of the potato beetle, Leptinotarsa decemlineata, under laboratory conditions at 25±2°C and 60±5 % relative humidity, and tested the antifeedant and toxic effects of the two extracts leading to the smallest number of egg-laying, Liquidambar orientalis and Buxus sempervirens, with a field study. The field study showed that the average number of 6.2 larvae and 7.2 adults before treatment of the Liquidambar orientalis extract decrease to 1.2 larvae and 3.2 adults after treatment. With the use of the Buxus sempervirens extract, the 10.2 larvae and 8.4 adults that existed before the treatment were reduced to 2.6 larvae and 2.8 adults after treatment. As for the eggs laid in the plants, the control plants had 13 while Liqudambar orientalis decreased this number to 3 and Buxus sempervirens to 2. These results suggest that these two plant extracts can be used in the field as a potential alternative to chemical pesticides.

Anahtar Kelime:

Konular: Biyoloji

Belge Türü: Makale Makale Türü: Araştırma Makalesi Erişim Türü: Erişime Açık

Abramson, D., Goad, L. J., Goodwin, T. W., 1973, Triterpenes and sterols of Buxus sempervirens and local variations in their levels. Phytochemistry, 12: 2211-2216.
Ash, M., Ash, I., 1995, Handbook of Food Additives: An international guide to more than 7000 products by trade name, chemical, function and manufacturer. Gower Publishing, Aldershot, 1040.
Berenbaum, M., 1985, Brementtown revisited: Interactions among allelochemicals in plants. Recent Advances in Phytochemistry, 19: 139-169.
Bianchi, F. J. J. A., Mikos, V., Brussaard, L., Delbaere, B., Pulleman, M. M., 2013, Opportunities and limitations for functional agrobiodiversity in the European context. Environmental Science & Policy, 27: 223-231.
Boland, D. J., Brophy, J. J., House, A. P. N., 1991, Eucalyptus Leaf Oils: Use, Chemistry, Distillation and Marketing. Inkata Press, Melbourne, Australia, 252.
Bowers, W, S., Ohta, T., Cleere, J. S., Marsella, P. A., 1976, Discovery of insect anti-Juvenile hormones in plants. Science, 193: 542-547.
Davis, P. H., (1966-1988), Flora of Turkey and The East Aegean Islands, vol. 1-10. Edinburgh, Edinburgh University Press.
De Groot, A. E., van Beek, T. A., 1987, The synthesis of Drimane and Clerodane insect antifeedants. Recueil des Travaux Chimiques Pays-Bas, 106: 1-18.
Dorow, E., 1993, Present practices of controlling desert locust outbreaks. In: Rembold, H. (Ed.). New strategies for locust control, ATSAF, Bonn, 7-8.
Ecevit, O., 1988, Zirai Mücadele İlaçları ve Çevreye Olan Etkileri, Samsun, Ondokuz Mayıs Üniversitesi Yayınları, 57 (in Turkish).
Ertürk, Ö., 2002, Elma zararlıları Cydia pomonella ve Yponomeuta malinellus'un patoloji ve mikrobiyal kontrolleri, Doktora tezi, Karadeniz Teknik Üniversitesi Fen Bilimleri Enstitüsü, Trabzon, Türkiye (in Turkish).
Ertürk, Ö., Uslu, U., 2007, Antifeedant, growth and toxic effects of some plant extracts on Leptinotarsa decemlineata (Say) (Cleoptera, Chrysomelidae). Fresenius Environmental Bulletin, 16: 601-607. FAO, 1992, Pesticide Residues in Food. Report No: 116, 146.
Fenemore, P. G., 1984, Plant Pests and Their Control, Butterworths, London, U. K., 280.
Franzen, H., 1993, Need for development of new strategies for locust control. In: Atsaf, R. H. (Ed.). New strategies for locust control, Bonn, 9-13.
Gurbuz, I., Yesilada, E., Demirci, B., Sezik, E. A., Demirci, F., Baser, K. H. C., 2013, Characterization
of volatiles and anti-ulcerogenic effect of Turkish sweetgum balsam (Styrax liquidus). Journal of Ethnopharmacology, 148: 332-336.
Handal, A. J., Hund, L., Paez, M., Bear, S., Greenberg, C., Fenske, R. A., Barr, D. B., 2016, Characterization of pesticide exposure in a sample of pregnant women in Ecuador. Archives Environmental Contamination and Toxicology, 70(4): 627-39.
Holopainen, M., Jahodar, L., Seppanen-Laakso, T., Laakso, I., Kauppinen, V., 1988, Antimicrobial activity of some Finnish Ericaceous plants. Acta Pharmaceutica Fennica, 97: 197-202.
Isman, M. B., 2006, Botanical insecticides, deterrents, and repellents in modern agriculture and an increasingly world. Annual Review of Entomology, 51: 45-66.
Lamparski, R., Wawrzyniak, M., 2005, Effects of water extracts from Geraniaceae plants with adjuvant added on feeding and development of Colorado potato beetle (Leptinotarsa decemlineata Say). Journal of Plant Protection Research, 45: 115-123.
Lee, B. H., Annis, P. C., Tumaalii, F. A., Choi, W. S., 2004, Fumigant toxicity of essential oils from the Myrtaceae family and 1,8-Cineole against 3 major stored-grain insects. Journal of Stored Products Research, 40: 553-564.
Matthews, G., 2006, Pesticides: Health, safety and the environment. 1st edn. Wiley-Blackwell Publishing, New York, U. S. A., 248.
Mohan, C. G., Gokavi, S., Viswanatha, G.L., Shylaja, H., Nandakumar, K., 2009, Analgesic and antiinflammatory activity of leaf extracts of Commiphora caudata in Rodents. Pharmacologyonline, 2: 991-998.
Mukherjee, S., 2003, Influence of plant allelochemicals on growth rate, nutritional physiology and mid-gut esterase activity in fifth instar larvae of Spodoptera litura (F.) (Lepidoptera: Noctuidae). Invertebrate Reproduction and Development, 43(2): 125-132.
Nawrot, J., Bloszyk, E., Harmatha, J., Novotny, I., Drozdz, B., 1986, Action of antifeedants of plant origin on beetles infesting stored products. Acta Entomologica Bohemoslovaca, 83: 327-335.
Norris, D. M., 1986, Anti-feeding compounds. In: Bowers, W. S., Ebing, W., Fukuto, T. R., Martin, R. W., Yamamoto, I. (Eds.). Chemistry of Plant Production Volume 1: Sterol Biosynthesis, Inhibitors and Anti-Feeding Compounds, Academic-Verlag, Berlin, 1-92.
Palmquist, K., Fairbrother, A., Salatas, J., Guiney, P. D., 2011, Environmental fate of pyrethroids in urban and suburban stream sediments and the appropriateness of Hyalella azteca model in determining ecological risk. Integrated Environmental Assessment and Management, 7: 325-335.
Rembold, H., 1994, Advances in invertebrate reproduction. Elsevier Science Publishers, 3: 481-491.
Saxena, R. C., 1987, Antifeedants in tropical pest management. Insect Science and Application, 8: 731-736.
Scott, I. M., Jensen, H., Scott, J. G., Isman, M. B., Arnason, J. T., Philogéne, B. J., 2003, Botanical insecticides for controlling agricultural pests: Piperamides and the Colorado potato beetle, Leptinotarsa decemlineata Say (Coleoptera: Chrysomelidae). Archives Insect Biochemistry and Physiology, 54(4): 212-225.
Smith, A. E., Secoy, D. M., 1975, Forerunners of pesticides in classical Greece and Rome. Journal of Agricultural and Food Chemistry, 23: 1050-1055.
Soto, A., Venzon, M., Oliveira, R. M., Oliveira, H. G., Pallini, A., 2010, Alternative control of Tetranychus evansi Baker & Pritchard (Acari: Tetranychidae) on tomato plants grown in greenhouses. Neotropical Entomology, 39: 638-644.
Thacker, J. R. M., 2002, An Introduction to Arthropod Pest Control. Cambridge Univ. Press. U. K., 337.
Turkish Ministry of Agriculture and Rural Affairs, 2008. The technical guide of Agricultural control, T.C. Ankara, Turkey, 5: 110-112.
Van Beek, T. A., De Groot, A. E., 1986, Terpenoid antifeedants. Part. I: An overview of terpenoid antifeedants of natural orgin. Recueil des Travaux Chimiques Pays-Bas, 105: 513-517.
Ware, G. W., 1982, Pesticides: Theory and Application, W. H. Freeman and Company, New York, U. S. A., 308.
Whittaker, R. H., Feeny, P. P., 1971, Alllochemics: Chemical interactions between species. Science, 171: 757-770.
Wieczorek, M., 1996, The effects of plant extracts on the cabbage butterfly, Pieris brassicae (Lepidoptera). Polish Journal of Entomology, 65: 93-99.
Yıldırım, A., Mavi, A., Oktay, M., Kara, A. A., Algur, O. F., Bilaloğlu, V., 2000, Comparison of antioxidant and antimicrobial activities of tilia (Tilia argentea Desf ex DC), sage (Salvia triloba I.), and black tea (Camellia sinensis) extracts. Journal of Agricultural and Food Chemistry, 48: 5030-5034.
Zehnder, G., Gurr, G. M., Kühne, S., Wade, M. R., Wratten, S. D., Wyss, E., 2007, Arthropod pest management in organic crops. Annual Review of Entomology, 52: 57-80.

APA	ERTÜRK Ö, SARIKAYA A (2017). Effects of Various Plant Extracts on the Development of the Potato Beetle under Laboratory and Field Conditions: A Combined Study. , 101 - 112.
Chicago	ERTÜRK Ömer,SARIKAYA Adnan Effects of Various Plant Extracts on the Development of the Potato Beetle under Laboratory and Field Conditions: A Combined Study. (2017): 101 - 112.
MLA	ERTÜRK Ömer,SARIKAYA Adnan Effects of Various Plant Extracts on the Development of the Potato Beetle under Laboratory and Field Conditions: A Combined Study. , 2017, ss.101 - 112.
AMA	ERTÜRK Ö,SARIKAYA A Effects of Various Plant Extracts on the Development of the Potato Beetle under Laboratory and Field Conditions: A Combined Study. . 2017; 101 - 112.
Vancouver	ERTÜRK Ö,SARIKAYA A Effects of Various Plant Extracts on the Development of the Potato Beetle under Laboratory and Field Conditions: A Combined Study. . 2017; 101 - 112.
IEEE	ERTÜRK Ö,SARIKAYA A "Effects of Various Plant Extracts on the Development of the Potato Beetle under Laboratory and Field Conditions: A Combined Study." , ss.101 - 112, 2017.
ISNAD	ERTÜRK, Ömer - SARIKAYA, Adnan. "Effects of Various Plant Extracts on the Development of the Potato Beetle under Laboratory and Field Conditions: A Combined Study". (2017), 101-112.

APA	ERTÜRK Ö, SARIKAYA A (2017). Effects of Various Plant Extracts on the Development of the Potato Beetle under Laboratory and Field Conditions: A Combined Study. Journal of the Entomological Research Society, 19(2), 101 - 112.
Chicago	ERTÜRK Ömer,SARIKAYA Adnan Effects of Various Plant Extracts on the Development of the Potato Beetle under Laboratory and Field Conditions: A Combined Study. Journal of the Entomological Research Society 19, no.2 (2017): 101 - 112.
MLA	ERTÜRK Ömer,SARIKAYA Adnan Effects of Various Plant Extracts on the Development of the Potato Beetle under Laboratory and Field Conditions: A Combined Study. Journal of the Entomological Research Society, vol.19, no.2, 2017, ss.101 - 112.
AMA	ERTÜRK Ö,SARIKAYA A Effects of Various Plant Extracts on the Development of the Potato Beetle under Laboratory and Field Conditions: A Combined Study. Journal of the Entomological Research Society. 2017; 19(2): 101 - 112.
Vancouver	ERTÜRK Ö,SARIKAYA A Effects of Various Plant Extracts on the Development of the Potato Beetle under Laboratory and Field Conditions: A Combined Study. Journal of the Entomological Research Society. 2017; 19(2): 101 - 112.
IEEE	ERTÜRK Ö,SARIKAYA A "Effects of Various Plant Extracts on the Development of the Potato Beetle under Laboratory and Field Conditions: A Combined Study." Journal of the Entomological Research Society, 19, ss.101 - 112, 2017.
ISNAD	ERTÜRK, Ömer - SARIKAYA, Adnan. "Effects of Various Plant Extracts on the Development of the Potato Beetle under Laboratory and Field Conditions: A Combined Study". Journal of the Entomological Research Society 19/2 (2017), 101-112.